4.5 KiB
Using DAGs
We conform to the NixOS options types for the most part, however, a noteworthy
addition for certain options is the DAG
(Directed acyclic graph)
type which is borrowed from home-manager's extended library. This type is most
used for topologically sorting strings. The DAG type allows the attribute set
entries to express dependency relations among themselves. This can, for
example, be used to control the order of configuration sections in your
luaConfigRC
.
The below section, mostly taken from the home-manager manual explains in more detail the overall usage logic of the DAG type.
entryAnywhere
lib.dag.entryAnywhere (value: T) : DagEntry<T>
Indicates that value
can be placed anywhere within the DAG.
This is also the default for plain attribute set entries, that
is
foo.bar = {
a = lib.dag.entryAnywhere 0;
}
and
foo.bar = {
a = 0;
}
are equivalent.
entryAfter
lib.dag.entryAfter (afters: list string) (value: T) : DagEntry<T>
Indicates that value
must be placed after each of the
attribute names in the given list. For example
foo.bar = {
a = 0;
b = lib.dag.entryAfter [ "a" ] 1;
}
would place b
after a
in the graph.
entryBefore
lib.dag.entryBefore (befores: list string) (value: T) : DagEntry<T>
Indicates that value
must be placed before each of the
attribute names in the given list. For example
foo.bar = {
b = lib.dag.entryBefore [ "a" ] 1;
a = 0;
}
would place b
before a
in the graph.
entryBetween
lib.dag.entryBetween (befores: list string) (afters: list string) (value: T) : DagEntry<T>
Indicates that value
must be placed before the attribute
names in the first list and after the attribute names in the
second list. For example
foo.bar = {
a = 0;
c = lib.dag.entryBetween [ "b" ] [ "a" ] 2;
b = 1;
}
would place c
before b
and after a
in the graph.
There are also a set of functions that generate a DAG from a list.
These are convenient when you just want to have a linear list of DAG
entries, without having to manually enter the relationship between
each entry. Each of these functions take a tag
as argument and the
DAG entries will be named ${tag}-${index}
.
entriesAnywhere
lib.dag.entriesAnywhere (tag: string) (values: [T]) : Dag<T>
Creates a DAG with the given values with each entry labeled using the given tag. For example
foo.bar = lib.dag.entriesAnywhere "a" [ 0 1 ];
is equivalent to
foo.bar = {
a-0 = 0;
a-1 = lib.dag.entryAfter [ "a-0" ] 1;
}
entriesAfter
lib.dag.entriesAfter (tag: string) (afters: list string) (values: [T]) : Dag<T>
Creates a DAG with the given values with each entry labeled
using the given tag. The list of values are placed are placed
after each of the attribute names in afters
. For example
foo.bar =
{ b = 0; } // lib.dag.entriesAfter "a" [ "b" ] [ 1 2 ];
is equivalent to
foo.bar = {
b = 0;
a-0 = lib.dag.entryAfter [ "b" ] 1;
a-1 = lib.dag.entryAfter [ "a-0" ] 2;
}
entriesBefore
lib.dag.entriesBefore (tag: string) (befores: list string) (values: [T]) : Dag<T>
Creates a DAG with the given values with each entry labeled
using the given tag. The list of values are placed before each
of the attribute names in befores
. For example
foo.bar =
{ b = 0; } // lib.dag.entriesBefore "a" [ "b" ] [ 1 2 ];
is equivalent to
foo.bar = {
b = 0;
a-0 = 1;
a-1 = lib.dag.entryBetween [ "b" ] [ "a-0" ] 2;
}
entriesBetween
lib.dag.entriesBetween (tag: string) (befores: list string) (afters: list string) (values: [T]) : Dag<T>
Creates a DAG with the given values with each entry labeled
using the given tag. The list of values are placed before each
of the attribute names in befores
and after each of the
attribute names in afters
. For example
foo.bar =
{ b = 0; c = 3; } // lib.dag.entriesBetween "a" [ "b" ] [ "c" ] [ 1 2 ];
is equivalent to
foo.bar = {
b = 0;
c = 3;
a-0 = lib.dag.entryAfter [ "c" ] 1;
a-1 = lib.dag.entryBetween [ "b" ] [ "a-0" ] 2;
}